SU1727868A1 - Liquid clarifier - Google Patents

Abstract

The invention relates to devices for the purification of various contaminated liquids and can be used for the purification of contaminated liquids in various sectors of the national economy, including public utilities. The purpose of the invention is to increase the cleaning efficiency and productivity of the apparatus. The liquid clarifier is equipped with a jet pump installed on the inlet pipe. Sludge tailings of hydrocyclones located on the outlets of the clarifier and outlet outlets of the reagent dispenser are connected to the suction chamber of the pump. The outlet cylindrical conic nozzles of even sedimentation cones and internal odd sedimentation cones and the upper part have on their outer surface a non-movable guide lining, which is inclined with respect to the vertical axis, and a guide element consisting of a pipe is attached to the output section of the jet pump diffuser. with through slots and dampers installed on the outer surface of the pipe forming tangentially oriented channels. The slits on the outer surface guide The apparatus is made at an angle to the vertical axis of clarification, equal to the angle of half the solution of the cone of the first precipitation chamber, and in the lower part of the inner surface of this chamber at a distance of 7-10 mm from its surface there is a conical mesh partition, the upper section of which is at the level of the upper the edges of the slot on the outer surface of the guide element. In the lower part of the guide element, a conical base is attached to the pipe, in which a hole is made to divert accumulated parts of the contaminants. 2 hp f-ly, 7 ill. sl C-h go Ch oe about 00

Description

The invention relates to devices for the purification of various contaminants of liquids and can be used for the purification of contaminated liquids in various sectors of the national economy, including 1 and in public utilities.

Apparatuses for cleaning contaminated liquids are known, including sedimentation elements made in the form of concentrically located upside down cones, a drain chute, loading and unloading devices.

The disadvantage of such devices is their low productivity and low lightening effect.

The aim of the invention is to increase the productivity of the apparatus and the efficiency of cleaning the fluid therein.

In the apparatus, a jet pump is installed on the inlet pipe, to the suction chamber of which hydrocyclones located on the nafpylfax outlet of the clarifier are attached, and the outlet ports of the reagent dispenser, outlet cylindroconic nozzles of even sedimentation cones and internal odd sedimentation cones in the upper part have on their outer sedimentary cones and internal odorous sedimentary cones in the upper part. the surfaces are fixed guide vanes located with an inclination relative to the vertical axis, and to the output section of the diffusion of the jet pump a guide element consisting of a tube with through-slits and mounted on the outer surface of the pipe flaps forming the tangentially oriented channels.

The cuts on the outer surface of the guide element are made at an angle to the vertical axis of the clarifier, equal to the angle of the half-solution of the cone of the first precipitation chamber, and in the lower part of the inner surface of this chamber at a distance of 7-10 mm from this surface there is a conical net barrier, the upper section of which is at the level of the upper edge of the slot on the outer surface of the guide vane.

In the lower part of the guide vane, a conical base is attached to the pipe, in which a hole is made to divert accumulated dirt particles.

Figure 1 shows the liquid clarifier, a longitudinal section; fig 2 is also a cross section; Fig. 3 shows a side vane with vertical slots; figure 4 is the same cross section; Fig. 5 is an exit cylindrical nozzle, side view; on figb - section aa in figure 5; Fig. 7 is a side view of the guide vane with inclined slots.

The liquid clarifier consists of a jet pump, which is a combination of the suction chamber 1 and the diffuser 2, the cover 3, the sedimentation cones 4-8, the groove 9, the hydrocyclone 10, the exhaust nozzles 1, the exhaust cylindrical nozzles 12 having a central nozzle 13 guide vanes 14 and dispenser 15 reagents. The suction chamber 1 of the jet pump is connected to the inlet pipe 16, the sludge outlet pipe 17 of the hydrocyclone 10

and the outlet nozzle 18 of the dispenser 15 of the reagents.

Internal odd sedimentation cones 4 and 6 have on their outer

surfaces guide blades 19 inclined with respect to the vertical axis.

To the output section 20 of the diffuser 2 of the jet pump is mounted a guide

0 element consisting of pipe 21 with through slots 22 and gates 23 installed on the outer surface of the pipe forming tangentially oriented channels 24. Slots on the outer

5, the surfaces of the guide element are angled to the vertical axis of the clarifier, equal to the angle of the half-solution of the cone of the first settling chamber, and in the lower part 25 of the inner surface

0, this chamber at a distance of 7-10 mm from this surface is set to a conical mesh partition 26, the upper cut 27 of which is at the level of the upper edge 28 of the slot 22 on the outer surface of the guide element 5. At the lower part of the guide element, a conical base 29 is fastened to the pipe 21, in which a hole 30 is made to divert accumulated dirt particles.

0 In the lower part of the even-numbered sedimentation cones 5 and 7, sludge pipes 31 are installed, ensuring the discharge of the sludge from the even cones directly to the lower part of the odd cones 6 and 8.

5 Hydrocyclone 10 has a collection of 32 sludge.

The liquid clarifier works as follows.

Purified liquid with a metered amount of reagents (coagulants, flock

0 lnts, etc.) and the smallest fraction of the sludge recirculated in the clarifier caught by the hydrocyclone 10 is fed into the suction chamber 1 of the jet pump and through its diffuser 2 is directed to the first sedimentation cone 4, where from it by changing its direction of movement, a large fraction of mechanical impurities is released, which is removed from the apparatus by

0 to the discharge outlet pipe 11, and the liquid, while continuing to move, is poured through the cone 4, again changes the direction of its movement to the opposite (from top to bottom) and interacts with

5 guide vanes 19, acquires a directional rotational movement inside the second sedimentation cone 5.

In order to create a directional rotational movement of the fluid inside the first sedimentation / ion cone 4, a guide element is attached to the output slice 20 of the jet pump diffuser 2, the slots with linings create a tangential component of the velocity of the fluid at the inlet to the cone 4.

The optimal speed of the flow of fluid from the guide element is 5-6 m / s, since a further increase in speed leads to a significant increase in pressure drop, which means an increase in the power of the pump group feeding the clarifier and an increase in the weight of the structure. At lower speeds, the resulting centrifugal force is not sufficient to overcome the inertial forces of the soil particles.

Thus, the first sediment, the reaction cone 4, serves as the second stage of the mixing chamber of the main reagents and the sludge recirculating in the clarifier. The additional swirling of the fluid flow by the slits with the overlaps of the guiding element leads to a uniform distribution of the initial flow of the cleaned fluid inside the precipitation cone 4 and the formation of a filtering layer of suspended sediment formed in the clarifier as a result of hydrolysis of the coagulants and their interaction with flocculants.

At 3TON1, a rotary fluid with particles of contamination passes through a conical mesh partition 26 located in the lower part of the first sedimentation cone 4 and loses speed, and inhibited sediment particles precipitate and are removed through the sludge pipe 11.

In the second sedimentation cone 5, the liquid also has a directional rotational motion, which, as in cone 4, increases the path of its passage inside the corresponding section of the clarifier, and therefore, due to improved mixing, contributes to a more complete cleaning of contaminants of a wide dispersity class, up to colloidal sizes.

Moving along the central nozzle 13 of the outlet cylindro conical nozzle 12, the liquid flows into the next odd (third) sedimentation and cone 6. In this case, the fluid flow passes through the conical part of the nozzle 12 and changes its direction to the opposite (bottom to top). Using the guide vanes 14 of the nozzle 12, the liquid acquires a rotational motion in the volume

the third cone 6. The sludge formed in the volume of the second precipitation cone 5 is fed through the slurry pipes 31 into the lower zone of the odd cone b, where it 5 is mixed with the sludge formed by the volume of the third cone 6, and is withdrawn from it through the outlet 11.

Thus, in odd cones, counting from the point of entry of the liquid being cleaned

In the clarifier, the rotating liquid moves upwards, which promotes the release of mechanical contaminants from it. collecting them on the walls of the cones and removing contaminants from the apparatus through the system

5 pipes 11. Transfusing through the upper edge of the odd cones, the liquid again acquires a rotational motion in the system of blades 19 and moves from top to bottom, contributing to the compaction of the sediment and its flow

0 odd cones through pipe system 31.

The liquid clarified in the conic sections of the clarifier is collected in a kolydevol trench 9, and a system of hydrocyclones 10 is continuously received / yes, where the end

5 but is released from contaminants that are continuously sucked from the hydrocyclone sludge collector 32 to the suction chamber 1 of the jet pump, where they are mixed with the liquid to be cleaned.

0 performs the function of sludge flaking centers.

The purification of the fluid in the clarifier takes place in a turbulent mode, contributing to the separation of contaminants from the volume

5 of the liquid being cleaned and from the apparatus itself, excluding the blocking by pollution of the system of overflow pipes 31 and exhaust pipes 11. In the last sedimentation cone, the fluid flow acquires the laminar regime,

0 which contributes to a more complete discharge of contaminants from the fluid flow. The final purification of the fluid is achieved in the turbulent mode in the system of hydrocyclones 10.

5 The introduction of chemical reagents from the dispenser 15 through its outlet nozzles 18 into the suction chamber 1 of the jet pump provides an additional degree of purification of the liquid and a high efficiency of the apparatus.

Claims (3)

Formula from acquired and 1. Liquid clarifier, containing sedimentation chambers, made in 5 form concentrically located upside down cones, even of which have outlet cylindro conical nozzles, drain chute, lid, inlet pipe and outlet nozzle, characterized in that cleaning efficiency and productivity of the device, it is equipped with a reagent dispenser, a hydrocyclone located on the outlet nozzle, a jet pump installed on the inlet pipe, the suction chamber of which is connected to the hydrocyclone sludge outlet pipe and the outlet nozzle of the reagent dispenser, and a guide element fixed at the diffuser outlet jet pump and made in the form of a pipe with through slots and valves installed on the outer surface of the pipe with the formation of. At the same time, the outlet cylindrical nozzles of even sedimentary cones and internal odd cones in the upper part are equipped with guide vanes fixed on their outer surface with a slope about the vertical axis. 2. Lightener according to claim 1, characterized in that it is provided with a placed in the lower part of the first downstream flow of the mixing chamber at a distance of 7–10 mm from its inner surface, there is a conical mesh partition, the upper edge of which is located at the level of the upper the edges of the slits of the tube of the guide element, while the slots of the guide element are located at an angle to the vertical axis equal to the angle of the half-solution of the first cone along the flow sedimentation chamber. 3. Lightning on the PP. 1 and 2, that is, with the fact that the guide element in the lower part is provided with a conical base with a hole for diverting contaminants.